RU101893U1 - SELF-INSTALLING WIDTHLY HARROW BEHTERA EN - Google Patents

Abstract

 1. Self-aligning wide-grip harrow containing a towing device connected to a frame having a central part of the frame connected by swivel with sliding side parts of the frame, transport and support wheels and working bodies mounted on the said parts of the frame, characterized in that the frame is provided with a pivotally mounted on it a spring-loaded rotary boom connected by a cable or cables with sliding side parts of the frame by means of at least one compensator, providing freedom one reciprocating movement of the cable when changing its length, all parts of the frame are made rotatable in a vertical plane, and the working bodies are mounted on each part of the frame using cantilever brackets mounted on them. ! 2. The harrow according to claim 1, characterized in that the compensator is made in the form of at least one pulley or step pulley. ! 3. The harrow according to claim 1, characterized in that the compensator is made in the form of a chain hoist. ! 4. The harrow according to claim 1, characterized in that the articulated joints of the central and lateral parts of the frame are made in the form of cardan joints. ! 5. The harrow according to claim 1, characterized in that the frame is equipped with a mechanism for fixing the rotary boom in the working position of the tillage implement. ! 6. The harrow according to claim 1, characterized in that the sliding side parts of the frame are equipped with a rigid connecting screed in the transport position of the tillage implement. ! 7. The harrow according to claim 1, characterized in that any part of the frame is equipped with rotation limiters of the sliding lateral parts of the frame in the working position of the tillage implement. ! 8. The harrow according to claim 1, characterized in �

Description

The utility model relates to agricultural machinery, in particular to harrows for surface tillage.

A self-mounted wide-grip harrow is known, comprising a towing device connected to a frame having a central part of the frame, connected by means of articulated joints, with sliding lateral parts of the frame, transport and support wheels, and working bodies mounted on said parts of the frame. In addition, the harrow is equipped with a mechanism for turning the sliding side parts of the frame, a lifting mechanism for the central part of the frame and contains movable attachment points of the working bodies to the parts of the frame (see RF patent 66148 for utility model, dated May 15, 2007).

The disadvantages of the known harrow include its structural complexity due to the presence of many mechanisms and moving units, the structural difficulty of installing the harrow in the working or transport position, narrow technological capabilities due to the limited width of the strip for processing the soil surface and the use of a limited number of working bodies, not high enough reliability of a large number of moving elements in the field.

The objective of the proposed utility model is the elimination of these shortcomings and the creation of a simpler and more reliable specialized tillage equipment for harrowing the soil.

The problem is solved in such a way that in a self-mounted wide-grip harrow containing a towing device connected to the frame having a central part of the frame, connected by means of hinged joints, with sliding side parts of the frame, transport and support wheels, and working bodies mounted on the said parts of the frame, in accordance with the decision, the frame is equipped with a pivotally mounted on it spring-loaded pivoting boom connected by a cable or cables with sliding side parts of the frame by at least e, a compensator which provides a free reciprocating movement of the cable when changing its length, all of the frame is rotatable in a vertical plane, and the operating members, each mounted on the frame via cantilever arms attached to them. In addition: the compensator is made in the form of at least one pulley or step pulley; the compensator is made in the form of a tackle; swivel joints of the central and lateral parts of the frame, made in the form of cardan joints; the frame is equipped with a mechanism for fixing the rotary boom in the working position of the tillage implement; sliding side parts of the frame, equipped with a rigid connecting screed in the transport position of the tillage implement; any parts of the frame are equipped with rotation limiters of the sliding lateral parts of the frame in the working position of the tillage implement; supporting and / or transport wheels are installed with the possibility of free rotation.

The technical result achieved by the utility model is expressed in constructive simplification of the self-adjusting wide-grip harrow, simplification of the installation of the harrow in the working or transport position. The reliability of the harrow is increased due to a significant reduction in the number of different movable mechanisms. In addition, the quality of tillage is improved due to the possibility of creating more specialized equipment (special purpose) with a wider strip of tillage, which in turn leads to an increase in its productivity.

The essence of the utility model is explained graphically.

Figure 1, shows a structural diagram of the left side of the harrow in the working position, top view; figure 2, the same, the right side of the harrow; figure 3, the same side view (rotated); figure 4, the harrow in the transport position, top view; figure 5, the same side view; figure 6, shows a compensator made in the form of a semi-oval element; in Fig.7, shows a compensator made in the form of a pulley or step pulley.

The proposed self-aligning wide-grip harrow consists of a frame (not highlighted by a position) having a central 1 part of the frame and sliding lateral 2 and 3 parts of the frame connected with it using hinged joints (not highlighted by the position). Swivel joints can be made, for example, in the form of cardan joints. The frame, for example, is made integral with the towing device 4, for example, with a clutch 4. The soil working tools are mounted on sections 5, for example, harrows with spring teeth 6, and are mounted on the central 1 and side 2 and 3 parts of the frame using cantilever brackets 7 (see figure 3). Transport 8 and supporting 9 wheels, provide movement of the self-mounted harrow during transportation and during its operation. In addition, they can be installed with the possibility of free rotation at a small angle, for example, mounted on cantilever hinges. The central 1 part of the frame, pivotally and kinematically connected via levers 10, 11 and hydraulic cylinders 12 (see Fig. 3) to the frame with the clip 4, that is, is mounted with the possibility of rotation in a vertical plane, this ensures the raising / lowering of all cantilever brackets 7. Sliding lateral 2 and 3 parts of the frame, connected to the frame with the tongue 4 using cables 13 and 14, the ends 15, 16, 17 and 18 of which are fixed on the side 2 and 3 parts of the frame. The middle part of the cables 13 and 14 is connected with a pivoting arm 19, pivotally mounted on the frame with a snap 4, using (by means of) compensators made in the form of pulleys 20, 21 or step pulleys (with strong pulling of the cables), or similar devices pulleys, for example, rollers or fixed semi-oval elements 22. The compensator can be made in the form of a chain-link and, for example, one common for the side 2 and 3 parts of the frame, with one common cable, etc. Compensators provide free reciprocating movement of the cables 13 and 14 (compensate for the change in the length of their free ends) when changing the position of the sliding side 2 and 3 parts of the frame from transport to working and vice versa. The pivoting arm 19 is pivotally mounted rotatably mounted on an axis 23 and is spring-loaded with springs 24. In the working position of the self-aligning harrow, the pivoting arm 19 is fixed to the frame with the snip 4 using the locking mechanism 25 and is in a position raised above the snit (see Fig. 3 ) At one end of each cable 13 and 14, control chains 26 and 27 are additionally fixed to change the length of the cables 13 and 14 if they are drawn (lengthened) during operation of the harrow. In the transport position, the side 2 and 3 parts of the frame are interconnected by a rigid connecting screed 28. The working surface of the semi-oval elements 22 can be reinforced with wear-resistant material (see Fig. 6), for example, fluoroplastic. The central 1 part of the frame and / or sliding lateral 2 and 3 parts of the frame can be equipped with limiters 29 for turning the sliding side 2 and 3 parts of the frame in the working position of the harrow. In addition, sections 5 with working bodies in the form of harrows with spring teeth 6 can be suspended and connected to cantilever brackets 7 using chains (not highlighted by position, see FIG. 3).

Before starting work, the self-aligning wide-mounted harrow is transferred from the transport position to the working one. For this, a rigid connecting screed 28 is disconnected from the sliding side 2 and 3 parts of the frame (see figure 4). Then, the harrow, for example, is moved backward with a tractor (not shown) (Fig. 4 to the left). Since the transport 8 wheels are located on the edges of the side 2 and 3 parts of the frame and are installed freely; with the possibility of rotation at a certain angle, for example, mounted on cantilever articulated levers, they independently rotate (wheel camber) so that with further movement of the guns back, the side 2 and 3 parts of the frame move in different directions, that is, they are self-mounted until as long as the limiters 29 of their rotation do not close. The cables 13 and 14, due to the springs 24 of the rotary boom 19, are in constant tension. After the lateral 2 and 3 parts of the frame are aligned in a straight line, the rotary boom 19 is lowered on the frame with the tongue 4 and, using the locking mechanism 25, is locked on it. Next, by turning on the hydraulic cylinders 12, the central 1 and, accordingly, the side 2 and 3 parts of the frame are rotated in a vertical plane, that is, the cantilever arms 7 are lowered (they are moved from a vertical position to a horizontal one). At the same time, sections 5 with working bodies in the form of harrows with spring teeth 6 freely lower (lie down) onto the surface of the cultivated soil, since they are suspended on cantilever brackets 7 using chains (see Fig. 3). Transport 8 wheels, located on the side 2 and 3 parts of the frame, are translated into the idle position, and the supporting 9 wheels are installed in the working position. The wide harrow is ready for use. When the tractor moves with the harrow forward, thorough tillage is carried out over the entire width of the harrow. Grinding, loosening, leveling, etc. are performed. cultivated soil surface. The fastening of the cables 13 and 14 at points 15, 16, 17 and 18, holds the side 2 and 3 parts of the frame in a predetermined position and ensures their uniform perception of the load acting on the harrow during its operation. The free fastening of sections 5 on chains allows them to “play, swim” and the weeds do not clog the working bodies, in addition, any resistance to movement that arises is easily overcome. This provides a high speed of movement of the harrow (speed of soil cultivation), good quality of processing and high productivity of tillage tools. At the end of the work, by turning on the hydraulic cylinders 12, the cantilever brackets 7 are moved from horizontal to vertical, that is, they are lifted together with sections 5 and working bodies. After raising the harrows, the rotary boom 19 is released from fixing by the locking mechanism 25. The tractor together with the harrow moves forward and the side 2 and 3 parts of the frame come (converge) towards each other thanks to the supporting 9 wheels. In this case, the rotary boom 19, due to the tension of the cables 13 and 14, rises and holds, in turn, due to the springs 24, the cables 13 and 14 in a constant tensioned position. The change in the lengths of the free ends of the cables 13 and 14 is compensated by the pulleys 20 and 21. As soon as the side 2 and 3 parts of the frame are in the transport position, they are fastened with a rigid connecting coupler 28 eliminating their further convergence / divergence during transportation of the harrow. Self-aligning wide-mounted harrow is assembled and ready for further transportation. When lengthening the cables 13 and 14 during operation of the harrow, they, for example, are shortened by connecting the necessary link of the adjustment chains 26 and 27 with the corresponding side 2 and 3 of the frame.

The proposed self-mounted wide-grip harrow, due to its high productivity and reliability in operation, will find wide application in agriculture both in collective and in farms.

Claims (8)

1. Self-aligning wide-grip harrow containing a towing device connected to a frame having a central part of the frame connected by swivel with sliding side parts of the frame, transport and support wheels and working bodies mounted on the said parts of the frame, characterized in that the frame is provided with a pivotally mounted on it a spring-loaded rotary boom connected by a cable or cables with sliding side parts of the frame by means of at least one compensator, providing freedom one reciprocating movement of the cable when changing its length, all parts of the frame are made rotatable in a vertical plane, and the working bodies are mounted on each part of the frame using cantilever brackets mounted on them. 2. The harrow according to claim 1, characterized in that the compensator is made in the form of at least one pulley or step pulley. 3. The harrow according to claim 1, characterized in that the compensator is made in the form of a chain hoist. 4. The harrow according to claim 1, characterized in that the articulated joints of the central and lateral parts of the frame are made in the form of cardan joints. 5. The harrow according to claim 1, characterized in that the frame is equipped with a mechanism for fixing the rotary boom in the working position of the tillage implement. 6. The harrow according to claim 1, characterized in that the sliding side parts of the frame are equipped with a rigid connecting screed in the transport position of the tillage implement. 7. The harrow according to claim 1, characterized in that any part of the frame is equipped with rotation limiters of the sliding lateral parts of the frame in the working position of the tillage implement. 8. The harrow according to claim 1, characterized in that the support and / or transport wheels are installed with the possibility of free rotation.